use crate::reduced_ir::{ReducedIR, Expression, Lookup, Function, FunctionDefinition, Statement, Literal}; use crate::symbol_table::{DefId}; use crate::util::ScopeStack; use crate::builtin::Builtin; use std::fmt::Write; use std::convert::From; type EvalResult = Result; #[derive(Debug)] pub struct State<'a> { environments: ScopeStack<'a, Memory, RuntimeValue>, } //TODO - eh, I dunno, maybe it doesn't matter exactly how memory works in the tree-walking //evaluator #[derive(Debug, PartialEq, Eq, Hash, Clone)] enum Memory { Index(u32) } impl From<&DefId> for Memory { fn from(id: &DefId) -> Self { Self::Index(id.as_u32()) } } #[derive(Debug)] struct RuntimeError { msg: String } impl From for RuntimeError { fn from(msg: String) -> Self { Self { msg } } } impl RuntimeError { fn get_msg(&self) -> String { format!("Runtime error: {}", self.msg) } } fn paren_wrapped(terms: impl Iterator) -> String { let mut buf = String::new(); write!(buf, "(").unwrap(); for term in terms.map(Some).intersperse(None) { match term { Some(e) => write!(buf, "{}", e).unwrap(), None => write!(buf, ", ").unwrap(), }; } write!(buf, ")").unwrap(); buf } #[derive(Debug)] enum RuntimeValue { Function(FunctionDefinition), Primitive(Primitive), } impl From for RuntimeValue { fn from(prim: Primitive) -> Self { Self::Primitive(prim) } } fn expr_to_repl(expr: &Expression) -> String { match expr { Expression::Unimplemented => format!("Expression {:?} not implemented", expr), Expression::Literal(lit) => match lit { Literal::Nat(n) => format!("{}", n), Literal::Int(i) => format!("{}", i), Literal::Float(f) => format!("{}", f), Literal::Bool(b) => format!("{}", b), Literal::StringLit(s) => format!("\"{}\"", s), } Expression::Tuple(terms) => paren_wrapped(terms.iter().map(|x| expr_to_repl(x))), Expression::Assign { lval, rval } => { "".to_string() }, e => format!("Expression {:?} shouldn't be here", e), } } impl RuntimeValue { fn to_repl(&self) -> String { match self { RuntimeValue::Primitive(ref prim) => expr_to_repl(&prim.to_expr()), RuntimeValue::Function(ref expr) => "".to_string(), } } } /// A fully-reduced value #[derive(Debug, Clone)] enum Primitive { Tuple(Vec), Literal(Literal), Callable(Function), Unimplemented, /* PrimObject { name: Rc, tag: usize, items: Vec, }, */ } impl Primitive { fn to_expr(&self) -> Expression { match self { Primitive::Tuple(items) => Expression::Tuple(items.iter().map(|item| item.to_expr()).collect()), Primitive::Literal(lit) => Expression::Literal(lit.clone()), Primitive::Callable(function) => Expression::Callable(function.clone()), Primitive::Unimplemented => Expression::Unimplemented, } } } impl<'a> State<'a> { pub fn new() -> Self { Self { environments: ScopeStack::new(Some("global".to_string())) } } pub fn evaluate(&mut self, reduced: ReducedIR, repl: bool) -> Vec> { let mut acc = vec![]; for (def_id, function) in reduced.functions.into_iter() { let mem = (&def_id).into(); self.environments.insert(mem, RuntimeValue::Function(function)); } for statement in reduced.entrypoint.into_iter() { match self.statement(statement) { Ok(Some(output)) if repl => { acc.push(Ok(output.to_repl())) }, Ok(_) => (), Err(error) => { acc.push(Err(error.into())); return acc; } } } acc } fn statement(&mut self, stmt: Statement) -> EvalResult> { match stmt { Statement::Binding { ref id, expr, constant } => { println!("eval() binding id: {}", id); let evaluated = self.expression(expr)?; self.environments.insert(id.into(), evaluated.into()); Ok(None) }, Statement::Expression(expr) => { let evaluated = self.expression(expr)?; Ok(Some(evaluated.into())) } } } fn expression(&mut self, expression: Expression) -> EvalResult { use Expression::Unimplemented; Ok(match expression { Expression::Literal(lit) => Primitive::Literal(lit), Expression::Tuple(items) => Primitive::Tuple(items.into_iter().map(|expr| self.expression(expr)).collect::>>()?), Expression::Lookup { ref id, kind } => { let mem = id.into(); match kind { Lookup::Function => match self.environments.lookup(&mem) { //TODO is this right? not sure Some(RuntimeValue::Primitive(prim)) => prim.clone(), _ => return Err(format!("Function not found for id: {}", id)), }, kind @ Lookup::LocalVar | kind @ Lookup::GlobalVar | kind @ Lookup::Param => { match self.environments.lookup(&mem) { Some(RuntimeValue::Primitive(expr)) => expr.clone(), _ => return Err(format!("Nothing found for variable lookup {} of kind {:?}", id, kind)), } }, } }, Expression::Assign { ref lval, box rval } => { let mem = lval.into(); let mut env = self.environments.lookup(&mem); Primitive::Unimplemented }, Expression::Call { box f, args } => self.call_expression(f, args)?, Unimplemented => Primitive::Unimplemented, Expression::ReductionError(e) => return Err(e.into()), e => return Err(format!("Can't yet handle {:?}", e)), }) } fn call_expression(&mut self, f: Expression, args: Vec) -> EvalResult { let func = match self.expression(f)? { Primitive::Callable(func) => func, other => return Err(format!("Trying to call non-function value: {:?}", other)), }; match func { Function::Builtin(builtin) => self.apply_builtin(builtin, args), Function::UserDefined(def_id) => self.apply_function(def_id, args), } } fn apply_builtin(&mut self, builtin: Builtin, args: Vec) -> EvalResult { return Err("unimplemented apply-builtin".to_string()); } fn apply_function(&mut self, def_id: DefId, args: Vec) -> EvalResult { let mem = (&def_id).into(); Ok(match self.environments.lookup(&mem) { Some(RuntimeValue::Function(FunctionDefinition { body })) => { return Err("unimplemented apply-function".to_string()); }, e => return Err(format!("Error looking up function with id {}: {:?}", def_id, e)), }) } }